Glass bending apparatus



March ,16, 1954 J. E. JENDRISAK GLASS BENDING APPARATUS Filed Sept. 13, 1951 3 Sheets-Sheet 2 m U i Ma W M mh/ M m %W .0 w M a (Ittorneg March 16, 1954 J JENDRISAK 2,671,987

GLASS BENDING APPARATUS Filed Sept. 13, 1951 5 Sheets-Sheet 3 z %im m m Patented Mar. 16, 1954 UNITED STATES TENT OFFICE 2,671,9s7 GLASS BENDING APPARATUS Application September 13, 1951, Serial No. 2463480 19 Claims. (c. 49 -7)' This invention relates broadly to the heating of material treating furnaces. More. particularly, it has to do with Creation of localized zones of concentrated heat within a furnace and a mounting assembly by means of which .the necessary burners can be easily and quickly placed in or returned to predetermined positions from a point remote from the heat zones of the furnace.

Although the apparauts of the present invention is in no wise restricted to any specific manner of heat treatment or furnace Construction, it has been found to be particularly well adapted for heating glass sheets in localized areas to obtain satisfactory bends of a complex nature.

I-Ieretofore, the bending of glass has been accomplished by introducing glass sheets on suit- 'able molds into furnace zones of progressively increasing heat and, when the glass is softened, allowing it to ireely settle onto the surface of the mold. When the mold surfaces, however, include relatively sharply curved areas, it has been found advantageous to create local zones of concentrated heat, in the general furnace heating zones, which will influence more rapid softening of those portions of the glass sheet that are to settle into registry with such'curved areas of the mold. According to prior known methods, such localized zones of heat have been determined by a trial and error placement of special burners which has inevitably resulted in a waste of time and glass until a suitable position of the burners with respect to the areas of the glass to be bent Was obtained.

Moreover, these special burners were mounted by various simple methods from ports in the furnace walls and no great emphasis was placed upon their immediate location other than that it was found satisfactory. The usual mounting of such burners has also made it rather diificult to note their location for future reference. When, in a change-over in production runs of glass sheets, it was necessary to alter these lccations of the special burners andsubstitute a different arrangement for the new curvature to r properly positioned special burner, and such records subsequently used'to re-locate'the burner or burners fer the heating. of'glass in ;bendin'gto any desired curvature 2 i 'A primary aim of this invention therefore is to provide a mounting assembly for furnace burners by means of which such burners can be positioned above defined areas of a glass sheet to be bent and a record obtained of the positions so that, for each and any type of bend curvature to be made, the burners can be easily and quickly returned to their required original positions.

Another object of the invention is to provide a mounting assembly for furnace burners which is constructed so that the burner within a furnace can be moved during normal heating operations to a predetermined location from a point exterior to the furnace and without actual observation of movement of the burner.

Another object of the invention is to provide a novel mounting assembly of several inter-related members, on which a special burner can be attached and which can be moved individually to alter the position of the burner, such individual movements being coordinated one to another so that in total they will bring about easy and rapid movement of the burner.

Another object of the invention is to provide a mounting assembly for a furnace burner that is inountable at a point relatively remote from the furnace heating zones and is constructed of coacting members by which the burner can be caused to move both horizontally and substantially vertically within the heating zones of the urnace without exposure of the 'operator thereto.

Another object of the invention resides in the provision of a mountng assembly of the above character which comprises a support, a burner unit carrying a burner head and an articulated carriage for mounting the burner unit on the support; the carriage and the burner unit each being individually operable with reference to the bas and all of the mentioned members having suitable indicia thereonfor establishing a predetermined position of the burner head within a furnace for future reference.

A still further object of the invention is to .provide a novel mounting assembly for a furnace burner which ischaracterized by the rigidty of its Component members, ease of operation and the efficiency of its use for the repeated positioningof the 'head of the burner at a predetermined location.

, {Other objects and advantages of the invention will become apparent during the course of the following description when read in connection with the accompanying drawings.

-v- In-the drawings, wherein 'like numerals are employed to designate like parts throughout the same: i

Fig. 1 is a side elevation of a conventional furnace used for bending glass sheets;

Fig. 2 is an enlarged, transverse section through the urnace shown in Fg. 1, taken substantially along the line 2-2 of that figure;

Fig. 3 is a side elevation of a mounting assembly for furnace burners constructed in accordance with 'the 'Linventiom Fig. eis-a top or plan view of't-he mounting assembly;

Fig. 5 is a transverse, sectional view of the mounting assembly taken on line egofgl'iggt l;

Fig. 6 is a cross-sectional detail View of one end of the burner unit of the 'mounting assemblw Fig. 7 is a fragmentary-cross secticnalview of a gear driving mechanism taken on line `l-'|*o"f Fig. 5;

Fig. 8 is a horizontal sectional view of 'canother of the gear driving mechanisms takenon line 8-8 of Fig. 5;

FgJQ 'sanzend view of thermonntneiassembly;

Fig.;10 ;is:apartial sdeselevationofctheiassemvbly tand Eg. 1 l ;is amenlarged;:transverse;sectionakview :taken on line 2 l' |--:l. I ;oil Eig. ;10.

Before enteringtinto ;a detailed :description :of -2 the mounting ;assembly ;of :the ::inventiom :brief imention of a typical 4 installationandz theutility s of such na 'mountingzassembly ::Will :be ;sma-zie ;in connection ;with ;na :conventional -cfrnace nployed :in the bending ;of rglass tsheets ::as ,illstrated in` Figslrand zof t'hezsdrazwngs.

While theshurner mounting cassemb lyihetein adisclosed is: notrrestrictedi toany particnlartype ::to anyxexact type; of special cburnersased forlo- .calized heating s'purposes, .::it i-is ::especially :applicable-;to-rglass: sheetloendingfurnaces. :Theztypical bending furnace !5, :shownsin-;elevation rin l'ig -;1,: isyconstructed :asiatunnel andsequipped 'Withsa conventional :roller cconveyor s !16 married r at vithe :aen y and-exit-, endsrofcthe urnace: ons arframe- %work l.'. ;Qn-:this conveyor, :bending :apparatus 1 includingmolds:uponswhiclr glasssheets.- or:plates :area-.to :he :bent, are ;conveyed 'progressively from 'xan-:entry oloa'dingzarea; indicated::atrAgthrcmgh -zones .of :progressively .::increasing :heat *B :and ::zones ',C, :wherein'-a.the 'loc-lized -heatin-g*-burners -:oftthe'-inventiontmay'-he locatedgto an `exit r or unloading area D, which may include an annealr ingrleer-cor suitable-:equipment :i foretempe'ring the bent glass:sheetsycblastsof chillingzair.

:Referringmow to g Fig. :2 mwherein sa cross-:see- 'x' tion:of*:the:rfurnace .-ofFig iiisndisclosed; itemll :be seen .thatrthe'rbending :appanatuscor r-moIds-? l 8 ::are carried :bytrol'ls l a oftth *conveyor zw'that ::lare rotatably ::mounted :thes side &wa-Ils ;of &the riurnace. I ,Oneen'dsofxeaclmollpojectsrontwardly fromuthefurnaceeand is; provded zwith. assuitable sprockets of other mollsifromzassource `ofpower ;intheusuakmemner. -iThe:furnace 1.5 f has, in- :stalledthereimaconventional heatingttubesrz lear- :ranged in -spaced'rlation alongtthe bottomsand :ceiling :of :the "furnace :.interior. %These ::heating .i 6 tubes :are :controlled in: any ;suitable 'manneri to :produce :successivezzones of :i increasingly 'l'highe' temperatures which act to gradually -r-aise' the :temperature 'of :thes glass ::sheets "passingthere- :through :without setting up' intenal strainsand ;distortion thencin.

Ordinarily, simplehe es ateeeasilyrobta-inedrby 'zproces ingglassisheets through a'iurnace;f-the ::above echaralcter. without; localizd eheatmg and of furnace, ;0r`materials: toberteatedtherein, :or 1735 rising end area or areas can be so produced. However, when such sharply rising areas adjoin central areas of a more shallow curvature and/or extreme end areas of a similar curvature, it has been found that, by reason of the length of glass sheet required to produce such a bend, the bending of the same on a mold becomes rather involved. *Thusstyp'eal rmolds. iofithis ;purpose are of the -hi-ngedvariety that are characterzed by hingerly 10 movable end sections which can be swung relaetive to a central mold section. The end sections efcahingedrmold are adapted to Swing from the closed to the open mold position with reference tothe centi al section so that the mold gen rally -'-ca'*be-:`disten`decd to approximately the length of 'the' at glasw'sheet and will operate to support etheesameeasatsseftens. However, to ?centi the -sheet into conformity with the sharply curved eareas'of the hinge mold requires special attention since the mold must be constructecl so that the eendesections-iwillanota closerbefcrethe; glass has :become:su mciently-plasticto,readly assume such s aeeurvature.

1;To.-.obviate complicatiomofthermold Construcztio and tomteatera.leending procedureo that will -she'niversally:applicable; recourse: has .been made :Lto;specialshurnerssthatrareiearredby pipes in seri-ed; through' theurnaee-ewalls. ,This manner ofplacementc, oftthetburnerst'has :required a` great ;determine 'IhGIDTQDAIQCaOD; for ;the burners, withoutLarry :substantall'y ;permanent structure by whicmthe mostefiectivab-rner' location could be asmermanently ,denoted ;According &ton-itha 3 present: invention, however, reiiant typezgas;hurnertheadsgsmh as those inxlicatedatzmrnil ig zg arecearriedby a special +monnti-ng ::assemblm rgenerally designated in its ;entirety :which:iszimountedon upright cha;

inrnelszorshuckstays zdfformin& apart of the outer rtesortedto :hum-:byaway-of example, the burner :heads 22 are :shown :as ;slocated ":intransversely .calligned aim-:and aso :that :the :pattern of the localizedeheating zone will-;extend inwardly from ;zan aneacdetermined t'byathez extreme i end of the glassrsheet. Accordingm-therspan of this area over theglasstmayhe substantial'ly-of a width, as indicated by the letter E, andtcan-be widened eorrnarrowed `:by ::changing the zarrangement of rthezhurners.

TTherbendng eapparatus -|8, as hereinshown, ::compriseszarack ze:andmold 2? iormed by a rcentral seotion endsections-that are pivotv zal ly connectedtothe central-section by hnges. Asjl lnstratedin Figfltheend sections are in athe'eopenrposltion of themold and the snarpy curwdazeas maye seen in !the -vicinity of ende IOf'ThGSSCODS.ZBEdOHHgtheThinges or the eenf s ions'ofathmmold. sncettheginfiuencing 5 -cenergyfor(therradiated-heat, is to'abe ,directed toward the ends of the glasswsheetz, the central aareasthereof ecen, :if desired, be v protected by shieldingievieespze in a manner well known in tshesa rt Thermounting.assemblies *23 for the burner headst 2,TWhhIaGZShOWn'aSCSUDLGGI'Ed on the a mri ht: hannels zz i, eachcomprse abase 38,221

lated carriage a, suspended-therefrom;and xa atbular memberfiz,'rherein ;described as the even some bent curvatures including a'sla-rply immerfunit,:recipmcllyssupported'in the carriage. As will be more fully hereinafter described, the burner unit 32 carries the burner head 22, at its end which projects into the furnace !5. In arranging the burners 22 preliminary to a bending operation, the carriage 3! is moved relative to the base 33 and its position thereon is noted; the burner unit 32 is moved relative to the carriage and its position thereon is noted (in a manner to be hereinafter described) and since both of these motions are substantially in a horizontal plane, the burner 22 will be carried inside of the furnace in a path that is transverse to the movement of the glass sheet therethrough.

If the elevation of the burner 22 above the surface of the glass is now found to be too close or too remote, the carriage 3!, due to its articulated construction, can be operated to Swing the burner unit 32 through a substantially vertical are and thereby raise or. lower the burner 22 into the proper position of elevaticn. Once the position of a burner is properly established in relation to the area of the glass to be heated, the positions of the carriage on the base, of the burner unit within the carriage and of the carriage itself can be recorded and when the same curvature is again to be produced, the various elements of the mounting assembly can 'be quickly and accurately returned to these recorded positions with assurance that the burner will have been restored to the desired position.

Referring now to Figs. 3 to ll wherein the mounting assembly Construction is shown in detail, it will be seen that the assembly 23 is bodily supported on the upright channels or buckstays 24 by a horizontally disposed rail 33 to which the base 3!) is attached. More particularly, r

to the rail 33 carried by the urnace channels Th rails 33, arranged along and on the opposite sides of the furnace !5, may be provided with registering openings for receiving the bolts 38 in any desired manner of spacing between the burner mounts 23 and the distance to be established between the burners 22 inside the furnace and above the path of the glass on the molds 21.

On the upper surface of the base 33, there is Secured a gear rack 39 extending longitudinally between the ends thereof and arranged substantially midway between its sides. The gear rack 39 may be Secured by suitable bolts or can be welded to the base. Also carried on the upper surfaces are two stop bars 43 and 4!, secured by screws 42, which are adapted to limit movement of the carriage 3! in either direction and particularly to prevent the articulated carriage from inadvertently being dropped from the open or unsupported end of the base.

This carriage 3!, as shown in Fig. 5, is comprised of a plurality of plates that are arranged in upper and lower pairs, 43-44 and 45-46 respectively, which are adapted to pivot about a common axis such as on the shaft 41'. The upper pair of plates 43-44 are arranged in vertical, slidable relation to the side walls of the base 30 and, to firmly support them in this association, spacer rods 43 are interposed between said plates above and beneath the base. These spacer rods 48 have outer threaded ends 49 of suitably reduced diameter which are extended through the walls of the plates 43 and 44 and receive nuts 53 on the exposed ends thereby drawing the inner surfaces of the plates up against the larger central portion 5! of the spacer rods.

The plates 43 and 44 are supported in their relation to the base 30 and are freely movable therealong by means of rollers 52, having threaded shafts 53 located in the plate walls and secured by nuts 54. As shown in various figures of the drawings, the rollers 52 are arranged above and beneath the base 36 so as to engage the upper and lower surfaces thereof and are substantially transversely aligned in pairs to equalize the weight of the carriage. The carriage 3! is caused to move along the base 30 by means of a gear 55 carried in meshing relation with the gear rack 39 and manually operated to cause its rotation therealong.

For this purpose, as shown in Fig. '7, the gear 55 is mounted on and keyed to a shat 33 carried in the plates 43 and 44 by means of journals 5'! and 53. If desired, the journals or sleeve bearings may be Secured by set-screwsii. Also, spacer sleeves 63 may be located on the shaft 56 between the gear 55 and the adjaeent and inner ends of the sleeve bearings. At one end of the shaft 56, there is provided a hand-wheel 6! by which the gear 55 may be manually turned to propel the carriage 3! along the base 33 by meshing engagement with the teeth of the gear rack 39 thereon.

To lock or clamp the shaft 56 from rotation and to thereby hold the carriage at any desired position on the base 33, the sleeve bearing 58 is of a special formation which includes a bearing portion 32 mounted in the wall of the plate 44, an annular fiange 63 and an outwardly directed hub 64 having a lock-nut" thread 65 formed thereon. As shown in Figs. 5 and 10, this threaded hub 64 is slotted, as at 56. The locknut" thread 65, in the nature of a taper similar to a conventional pipe thread, receives the end 51 of a lever 68, said end being correspondingly internally threaded.

consequently when the lever 68 is turned to advance the threaded end inwardly on the hub 63, the progressively increasing taper of the mating threads will serve to compress the slot 33 and thereby clamp the adjoining internal area of the bearing 53 tightly around the shaft 56. Since this clamping action Will result upon very slight compression of the slot, the actual throw" or" the lever 63 will be quite short. Thus by gripping the lever 68 and the hand-wheel 3 i, a short turning motion of the lever to turn the end 3'! thereof and move it outwardly will release the shaft 56 whereupon it may be turned to move the carriage 3! along the base 33 and 'as the gear 55 advances, in either direction, in meshing relation with the gear rack 39.

In order that the extent of movement of the carriage 3! and the burner unit 32 mounted within the carriage, along the base 33 may be accuratelydetermined or, having moved the same to a desired position it can be noted, one side wall of the base 33 is provided with a scale, as indicated at 39 in-Figs. 3 and 10. Movement of the carriage 3! may be considered as the primary movement of the burner unit and. horizontal extension of the burner head 22 thereof into and out of a predetermined area within the furnace !5. Preferably, the carriage 3! is initially located on the base 30 by' moving the same until the proximate ee'dges of :the plates :43 .and -fl will ;engagethe-sendstop-baret. in: which position the ;oppositet edges,: indicated by the; letter;F, of :said plates will -substantia11y :register with `the W' 'point of the scale 69.

Then, when 'the :lever :678 'is turned to ,release 'the 'clamping relationbetween the-shaft 56 and thexhub B ici sleeve:58, the:hand-wheel:l can -be-operated to rotatethe z gear 55^to move the :same along the gear -rack -39 and consequently xcarry the carriage-3 l isovthat the designatededges Fof the plates 43-44 will progressvely *move :past the: increasing' numericalvalues of ,the scale Gara-s the Component parts of the mounting as- :sembly 23 rare-ocarriedatoward the urnace t.

As noted above'the upper pair of plates 43-44 'and the` lower pair of i plates 45-46 are pivotally interconnected :by the. shaft 4?. 'More particular ly, and as clearly shown in Fg. 5, the shaft 41 is provided at one end with anqenlarged headm and atits opposite endwith -a threadedportion r'H. :Betweentheseendsvofthe shaft, it is jour- *naled in bearings :12 mountedvrin thezupper end of the lower pair of plates *45-45 and, adj acent theibearings thegshaft is:s pported insuitable openingsin the lowe'endsof theupper pair of p1ates43 and 44. A'spacer'sleeve 'is `is carried ?by` the shaft fl and the-endstthereof -loosely abut the pper plate --43 :andaithe lower plate 46, these .being the inner; plate :of each pair.

Mounted on the-enter surface of the upper ;plate-44,-is a piate'T-&throughwhich the threaded end 'H of the shaft 41 extends. Therlower: surface of-theplate ?4 is formed to provide-a gear ?sector 'l which willlbe moreuily hereinafter .described. onithe threadederd 'H of the'shaft 45,' there is received' the internally'threaded hub '56 of a lever TI. :To prevent :the lever fromvbeing inadvertently removedfrom the threaded end 'l, the shaft :47 is axially tapped -rto receive a threaded'stopimember 18 having an enlarged ,head 7-9.

The lever 'fl operates-when advanced inwardly on the threads 'H toengage-theplate 14 and produce s an endwise thrust on` the plates 43-44 and 45-45 as they are forced'together between .thehead-''tof the shaft--4Lthe spacer sleeve 73 and thejhub 15 :of the lever. ..Thisaction-is intended to secure :the plates in a fixed relation and,=rnore .especallshto clamp the lower pair of plates 45-46 from pivot/al motion about the axis .of the shaft 41 and. relative to the' upper pair of plates 43-44. Accordingly uniess an angular relationis to :be created between the pairs of platesAB-M and 45-45, they can be considered .as-fixed Component parts of the :articulated-carriageB.

The burner cunit 32, hereinbefore broadly described as being supported by the carriage 31, in .the maincomprises asubstantially square, elongatedtubular bodyonchamberfi, the side walls 81 of which are received between the lower pair of; platesA-w. :The .tubular chamber .is prov-idedz at one, or the.. reaL-end wall 82 -witl' arsuitable pipe-ttappedtopening' forreceiving a pipe 83 by which the chamber is connected to a eonventional gas supply line (Fig. 3). At the opposte end of the chamber, provison is made for secur- .ing an insu-lated pipez-assemblagea l which extends into-the furnace and-is adapted to carry the bu'nerheadzat its-end. Whilethetublar body `-does ;not :constitute ;a ...specially ;con- ;structed mixing chamber for the :gas ;supply to 'the Lbrner head, it i; has *been 1' found ;more con- .venient too replace-;thednslated i'assemblage, ex-

surface. care to ibe made more plasticthan adjoining areas maybe subjected':to'the effects of a series of such tburnersoso asto'more-readily 'bend into contact with the mold surfaces.

tending intoithe--furnace, or make'- the necessary :connections to ;the gas :supply I linos :by using a ttubularbody-othscharacter whileat the same time, employing the same vfor its intended purpose of reciprocal movement within the carriage 3l.

The burner head, which is 'conventionaily shown in Fig. 2, is of the -radiant gas heater type and ,the heat developed therefrom is directed 'n the form .of ra'diant energy toward the glass. By reason 'of this radiant characteristc, the burneriheadwill' producea zone of concentrated heat energy which can be employed to influence the softening of desired'localize'd areas of the Thusthose areas-;Qira glass sheet that This insulated assembiage M (Fig. G) comprises anouter metal' jacket '85 equipped with 'a mounting plate %gan inner pipe Bcommunicating with' the'chamber: BE! through the end wall 85; thereofand an insulating wall 85 'therebetweem the wall *being'formed ofany'suitabie heat insulating material. In'mounting the assemblage 84 on the chamberrfi, a gasket 'Q is placed on the end wall 88 ofthe'chamber and the plate 35 is secured tightly thereagainstbybolts 252! or the like.

'The body'or chamber' s ofthe burner unit supported bythe z earriage ii. in substentiady same'manner that` the'carriage is supported on the base %e and likewise similarprovsion is :made for. movingthe unit 32 relative to the car- .riage.

-same, the central-portions 5l ofnthe spacer rods 43 will have a 'length equal' to the' combined length of the-spacer sieeve ?3 andthethickness of the plate 43 on:the:;shaft 41. 'Thiis by arranging the -spacer rods 48 between the plates ta and 44 above and below the .base "30 and between the plates "45 'and 46 beneath theitubular chamber te of the burner unitcl the desired'parallel reiation of the-pairsiofgplates 'will bereffectiveiy maintained.

Aixed to the uppe' surface of the'tubular chambersB, thereis. also Secured a gear raok 92 similar to gear rack39 on the -base S. Above the raek andin -meshing relation therewith is a *gear--93carried` onaaashaftsa .While the shat 84 :is-generailyxsupported iintthe walls .of the plates :45-46 as; is athe` sti-aft.-

in the walis iof the plates 43-44,;previou`sly described, the con- .struction-: of this shaft'differentiates it from the shaftu by reason ofits mounting.

shown in Fig. *5, one end of theshaf i'is provided-with a headssthat sreceived in the .counter-bore 96 of an: opening made in the plate 46 .for mountin oftheshaft journal 3?. Inthe ;PhositegplataA ;thershaft 9.4 isjournaed in -a .releasab l-y, Secured?fromrrotation. ,The'shaft 94 `isi;clanp i ill-the special journalabyoperation of 9 a lever 98 having an intemally threaded hub 99 received on the "lock-nut" thread 65 of the J'ournal hub 64 of hearing 58. On the outer end of the shaft, a hand-wheel is fixedly mounted to provide for turning the same.

Movement of the burner unit 32 relative to the carriage is indicated by means of scales I!!! that may be located on one or both of the side walls 8! of the tubular chamber 80. As shown in Figs. 3 and 10, these scales are arranged in reverse order from the scale 69 on the base 30 since the unit 32 moves with reference to the carriage 3! while the carriage moves with respect to the base. The scales o are also of a more defining nature and may be represented by inches and suitable fractions thereof. By means of the scales I OI, the second adjustment of the mounting device 23 may be accomplished and when the primary position is indicated by the position of the plate 44 on the scale 69, a finer calibration of position can be obtained by moving the burner unit until the one edge G of the plate 46 registers with the desired numerical value.

Now, when the burner head 22 is to be further positioned, or, more particularly, when the burner head 22 is to be raised or lowered with reference to the surface of a glass sheet or a substantially horizontal plane through which it passes, the burner unit, by the carriage 3 I, is adapted to be swung through a substantially vertical arc.

To do this, the lever is operated to remove the clamped association eifected between the pairs of plates 43-44 and 45-45 so that the lower pair of plates 45-46 can be swung on the shaft 4? and relative to the upper pair of plates 43-44. For this purpose, the plate 46 has mounted thereon a gear rack !02 having teeth !03 on the upper surface thereof which mesh with the gear sector '!5 of the plate 14, carried by the upper plate 44. The gear rack !02 is slidably supported in a slideblock !04 secured to the lower plate 46.

This slide-block is formed by a plate !05 mounted by screws !06 on the plate 46. The plate !95, as shown in Fig. 11, has a guide-way !01 formed in part by an upper ledge !08 and a bottom ledge !09 on said plate. The gear rack !02 is slidably mounted within the slide-block !04 by means of an additional plate !!0 that is Secured to the bottom ledge !69 and a gib-plate I!! securedn the upper surface of the plate !!6. The slide block !54 is closed at its ends by end caps !!2 and !3.

The gear rack !02 is caused to move within the guideway !!l'! by means of a shaft !!4 having a threaded central portion !!5 in the nature of a worm or Acme thread. As shown in Fig. 8, the rack !02 is similarly intemally threaded, as at !!6, to receive the threaded portion !!5 of shaft !!4. At its opposite ends, the shaft is mounted in journals !!1 in the end caps !!2 and !!3. The shaft !!4 carries at one outer end a spiral gear !I 8 which is in meshed relation with a second spiral gear !!9 on a shaft !20. The shaft !20 carries a hand-wheel !2! and is journaled, intermediate the gear !!9 and said hand-wheel, in a bracket !22 suitably Secured to the plate !!0 of slide block !04. Upon turning the gears !!8 and !!9, the threaded portion 5 of the shaft !!4 will cause the threads !Is of gear rack !02 to move the same within the guideway !01 and, in meshing with the gear sector '!5, produce pivotal motion of the plates 45 and 46.

In order that the shaft !!4 may be restrained from endwise movement with respect to the gear rack whereby corresponding reciprocal move- 10 ments of the rack within the slide block will be produced, the hub of the spiral gear !!8 abuts the adjacent journal at one end of the shaft while a collar !23, Secured to the opposite end of the shaft, is positioned relative to the adjacent journal !!1 in the end cap !!3. Rotation of the shaft !!4 will cause the threaded portion !!5 thereof to advance with respect to the internal threads !l of the gear rack !32 and operate to cause the movement thereof within the guide way !01. This movement is imparted through the gear teeth !03 of the rack !02 to the gear sector '!5 in such a fashion that the lower pair of plates 45 and 46 of carriage 3! and the burner unit 32 carried therebetween will be caused to swing relative to the base 36 and the upper pair of plates 43 and 44 of the carriage mounted thereon. The extent of angular motion effected between the related pairs of plates can be determined by means of a pointer !24 carried on the plate '!4 which pointer will indicate the radial motion as the scale !25, in the form of a protractor, on the plate !ID of the slide block !!!4 is moved radially past the same.

In the general use of the mounting assembly in a bending furnace or kiln as disclosed in Fig. 2, it has been found that the burners 22 can be located in an original set-up for heating of glass sheets during their bending to a special curvature by moving the burners in and out and up and down above a sheet carried in the customary manner on a hinged bending mold in its open mold position. Upon movement of the carriage 3! along the base 30 or movement of the burner unit 32 relative to the carriage, the generally desired position of the burners can be obtained in a line transverse to the movement of the mold through the furnace. In adjusting the position of the burner 22 with reference to its elevation above the glass sheet, it may become necessary to not only swing the burner unit 32 upwardly or downwardly by means of gear sector '!5 and rack !02 but to reciprocate the unit 32 within the carriage until the desired positional elevation is reached. Now if the positions of the carriage on the base, the burner unit on the carriage and the pair of plates 45-46 relative to the upper pair of plates 43-44 are checked on the respective scales 69, !ill and !25, the position of the burner 22 inside the furnace can be exactly determined and a, permanent record made of the same. By way of example, by referring to Fig. 3, it will be seen that from a known point of reference within the furnace, such as the inner surface of the wall adjacent the mounting assembly, the carriage 3! has been moved inwardly to the legend !5 while the burner unit has been moved inwardly with respect to the carriage substantially to the legend 24 so that the burner head 22 will have been transversely moved horizontally within the furnace a total of thirtynine units or inches. Also as therein shown, the relation of the plates 45-46 to the plates 43-44 of carriage 3! is such that the burner unit 32 and the burner 22 are inclined at an angle of 15; By recording these various factors, such as 15", 24" and 15, for one position of the burner and repeating the procedure throughout the series of burners 22, the desired locations of the same for one particular bend curvature can be permanently established. Should it become necessary to produce a second type of curvature and the burners are moved into new positions, a subsequent return, even during the maintenance of high temperatures within the furnace, of the said burners to'-the' fi`rst positions can' he rea'dh madehy movementof' the Component parts of the; mou-nting assemblies 231 Ih carrying out-` these adjustments; the lever 68 isswung to -allowthe-s1ot-- in the special journal 58 to expand andthereby releases the. shat-fi orrotation Turning of thehand-wheel 61*now' causes'the gear to traverse-the gear' raok*39 on the base-'3% -until`the desired legend' on"` the*scal ---69 is reached: Upon reversing'motion of the'-lever"6 3,-- theshaft will again be Secured* from motion injournal' 58; The lever efi ismow swungto releasethe shaft Q l Whereupon" it canbe-turned by the-hand-wheel' Hill to'*a'dvance-'the=gear i; alongthe gear rack 92, actually-- this operationcausesthe= said rack* to move thereby'reciprocally moving the burner unit'- 32 jwithin the carriage 'until' the* second position isdenoted on'the sea-le 101'. Theshaft" 94; imi-- larlrto th'eshaft` 55-; will be Secured from-rota--- tin* by' reversal of the lever- 98: To 'oi-ing about* angular-*moticn of-thebumer--unit; the-1ever-11 is svsrung` to remove the clampedcondition i ef fected between the head w ofthe shaft fl; the plates'jd's -fl-"and i S, the-spacer s1eevel3 and*the-hub"-l6-ofth lever; It is now-'possible to'tirn the hand-wheel` 121, and; throughthe meshed spiral gearsl l8'and*| lirotate the shaft l I 4* and-`cause^the gear rack i !32 to 'move relative to* the" gear' sector" and thereby- Swing' the' burner'unit'i to apredetermined positionbi' angula-rity'as*indicated by the pointe- !24' relativetorthescale*!25% The-actual movement of* th burners '22 within* the furnac during these adjustments-- thus-- need not be' 'actually 'observed but-th^e"exact positions" to which they are moved will' he aocurately obtained'or -indicated-on the respective `scalesof the mounting 'assemb'ly By; employingmounting 'assemblies' as' hereinibefore', described 4 in: detail; it* is" now possibl to' achieve the 'heating of "glass' sheets; prior` to' their' b'endi'ig,` in selected; areas an'dwith: a definitev positioning of localized heating burners above the', selectedi areas.. Furthermore; movements' of the: component= parts of? each assembly can' be' effected without loss' ofiurnace heat-; ei, lowering'of the same during achange-over in bend curvatures an'd without exposure of 'the operators to. radiatingheat from opened'ports of'the furnace. More especially, in the production of a seriesofgspecial`curvatures to whichglass sheets may, b'e. bent; the. respective positions` of? the burners r, each ofjthetcurvature can ,be easily ascertained andi` they can b'e subsequentiy returned ?to suchpositions inan expedient mannen Its-is to bennderstoodthat the form of theinventionherewith shown and described is tobe taken as a; preferred embodiment:` of'thesame, but\tha.tvarious-changes in-the shap e, sizeand' arrangement of parts may be resorted to without departing from the spirit of the invention or: thescope of the subjoined claims.

1. In apparatus' for bendirg glass sheetsor plates, incombination, a furnace having means for heating said sheets to bending temperature, conveyor means within said furnace; a' bending mold carried through the'furnace upon said conveyor'means and ?supporting a flat'sheet ofglass to'tbejb'ent, and a series of burners arranged longitudinally adjacent'eaoh side of "the furnace and` dis'posed' above the path of travel of `the glass sheet,*eaoh* series of burners ext-,ending oliagonally of *the path of 'trave1`of the glass sheetto efiect 12 the localized heating:: of seleotedportions of 'said' sheet;

2. 11: apparatus for bending glass sheets or plat'es, in combination; a-;furnacehavingmeans* for heating said sheetsnto bending temperature; con-veyor: means Within sad furnace, i a' bending mol i-i carried zthrough the urnace upon said conveyormeans` and supporting a' fiat: sheet of glass tobe bent; a serie ofburners arranged long'- tudinallyadjacent each side of the 'furnace and disposed` above the path of travel of' the glass sheet; and means for. independentlymoving said' burners relative to one? another, transverselyi of the` path of travel of'said sheet to. effect the local;

izedheating of'selected DOTOHS'O GaCi sheet.:

3. Inapparatus fo bending giass sheets or plates; incombination; a iurnace having means for' heating' said sheets to b'ending temperature; oonveyor: means 'within said iu'nace, a' bending; mold 'carried through the furnace upon said .conveyor meansandsupporting a fiat'sheet of( glass` tobe bent; a se'ies o burner arranged longitudinally adjaoent each' side of i the. furnace and dispos'ed above the path oftravel of the t glass sheet; and means for independently moving said' burnersrelativetoone another transversely of' and normal to-the' path of travelof said'sheet` to efiect the localized heatingof selectediportions; of each sheet.

i; In: appa'atus for: bendin; glass sheets 01' piates, incomb'ination; a urnace having means for heating` said sheetsto bending temperature; conveyor means withinsaid f .turma-ce, i a bending mold carried through the furnace upon' said' con'- veyo"means and supporting a flat sheetof glass to be-b'ent; a series of burners arranged'longitudinally adjacent'each-sideo'the iurnace and disposed above the path o f travel of the glass sheet; means for independent1y'moving-' said' burners relative to one another transversely of the path of travel cf said sheetto'effect the localized heating` ofselectedp-ortions of said sheet; and means for` indi'cating` a predterm ned position for each burner inre1ation to saidiselectedportions of the sheet;

5.- Inapparatus for bencling glass sheets or plat'es, atunnel'type furnaee; conveyo mea ns for carrying moldsupon which" glass sheets are adapted =to-be supported and bent through the furnace,- means for heating said sheets to bending temperature a bu-rner within said furnace for applying localized heat to selected portions'of the glasssheetson said' mois, and means mounted outside of' said" furnacefor supporting said b'urnerfor-- movement 'relative' to-the molds on said conveyor.

6. Inappara-tus-fo-r-hending glass sheets or plates a tunnel type furnace; conveyor means'for carrying molds upon' which; glass sheets are adapted to be supportedand'bent throughithe furn'acemeans' fr-heating'said sheets to bendng temperature 'a burner'within'said furnace for ap,- plying'lcaiiZedheat to'selected portions of the mass streets on' said ,mo1d's; and meanstmounted outside'of'said'iirnace for'supporting said burner for movement in itwopianes relative to the melos onsaid conv'eyor.

7. Ih' appgaratusior b'ending .g1ass sheetslor plates a. tunneljtype furnaceconveyor. means foricarrying mol'ds upon' which g1ass sheets are adapted to besuppo tedland bent', through the urnace, means for heatingsaid. sheets toi bendngtemperature' ai burner. withinsaidu nacefor applying localized heattoiselected portions ofthe. glass' sheets on` said molds; means 'mounted out- 13 side of said furnace for supporting said burner for movement relative to the molds on said conveyor and means on said supporting means for indicating the position of said burner with relation to the molds on said conveyor.

8. In apparatus for bending glass sheets or plates including a furnace within which the sheets are to be bent, a burner assembly comprising a base extending outwardly from said furnace, a tubular member extending inwardly of the furnace, a carriage for supporting the tubular member on said base and means on said carriage for adjusting the angular position of said tubular member relative to the base.

9. In apparatus for bending glass sheets or plates including a furnace within which the sheets 'are to -be bent, a burner assembly comprising a base extending outwardly from a wall of said furnace, a carriage outside of said furnace having a portion mounted for movement along said base and a second portion pivoted to said first portion, an elorgated burner unit mounted for reciprocal movement within said second mentioned carriage portion and extending into said furnace, and a burner carried at the end of said burner unit lying within said furnace.

' 10. In apparatus for bending glass sheets or plates including a furnace within which the sheets are to be bent, a burner assembly comprising a base extending outwardly from a Wall of said furnace, a carriage outside of said furnace having a portion mounted for movement along said base and a second portion pivoted to said first portion, an elongated burner unit mounted for reciprocal movement within said second mentioned carriage portion and extending into said furnace,' a burner carried at the end of the burner unit lying within said furnace and indicating means on the burner assembly for indicating the position of the burner head.

11. In apparatus for bending glass sheets or plates including a furnace within which the sheets are to be bent, a burner assembly comprising a base extending outwardly from a wall of said furnace, a carriage outside of said urnace having a portion mounted for movement along the base and a second portion pivotally connected to the first portion, a burner unit including a burner head normally disposed within the furnace, the burner unit being mounted for reciprocal movement within said second portion of the carriage, means for initially moving the burner unit relative to the base by movement of the first portion of said carriage to a predetermined position on' the base, means mounting the burner unit on the carriage' for movement relative thereto to a second predetermined position, means for pivotally mounting the said second portion of the carriage relative to the first portion of the carriage to permit the burner unit to be swung to a third predetermined position, and indicating means on the burner assembly for indicating such first, second and third positions of the burner unit to thereby repetitively locate the burner head thereof in a predetermined position for heating the glass during bending to one special curvature.

12. In apparatus for bending glass sheets or plates including a furnace within which the sheets are to be bent, a mounting assembly for furnace burners comprising a substantially horizontally disposed base for supporting said assembly bodily on the Wall of the furnace, a burner unit mounted for movement relativ to said base and carrying the burner head within the urnace, acarriage for 'supporting the burner unit for movement along the base, means mounting the burner unit on said carriage for movement relative thereto and means on said carriage for mounting the burner unit for swinging movement in a vertical plane to adjust the position of th burner head of said burner unit within the'furnace.

13. In apparatus for bending glass sheets or plates including a furnace within which the sheets are to be bent, a mounting assembly for furnace burners comprising a substantially horizontally disposed base for supporting said assembly bodily on the wall of the furnace, a burner unit mounted for movement relative to the base and carrying a burner head within the furnace, a carriage formed of pivotally related parts and mounted on the base for reciprocal movement therealong, means indicating the position of the` carriage relative to the base, means mounting the burner unit for reciprocal movement in one of the pivotally related parts of said carriage, driving means for moving said burner unit reciprocally within the carriage, means indicating the position of the burner unit relative to the carriage, and means on said carriage indicating the angular position of the burner unit to determine the position of the burner head thereof within the urnace.

14. In apparatusfor bending glass sheets or plates including a furnace within which the sheets are to be bent, a mounting assembly for furnac burners comprising a substantially horizontally disposed base for supporting the same bodily on the outer wall of a furnace, a carriage formed of pivotally related parts and supported by one of said parts on the base, means for swinging the lower carriage part relative to the upper part thereof, means for moving the upper carriage part along the said base, a burner unit having a burner head disposed within the furnace and mounted for reciprocal movement in the said lower part of the carriage, means for looking the said upper part of the carriage from movement relative to the base, means for locking the lower part of the carriage from swinging movement relative to the upper part of the carriage, means for looking the burner unit from reciprocal movement relative to the lower part of the carriage, and means on the mounting assembly for determining the position of the burner head of said unit when the Component parts of said mounting assembly ar in their locked position.

15. In apparatus for bending glass sheets or plates including a furnace within which the sheets are to be bent, a mounting assembly for furnace burners comprising a horizontally disposed stationary base for supporting said assembly on the outer Wall of the furnace, a burner unit having a burner head normally disposed within the furnace, a carriage formed of pivotally related parts arranged in pairs above and below a common pivotal axis, means for supporting the upper pair of carriage plates for movement along the stationary base, means for moving the upper pair of carriage plates along the base, the lower part of carriage plates being adapted to support the burner unit, means for mounting said burner unit for reciprocal movement within the lower pair of carriage plates, means for creating relative pivota'l movement between said upper and lower pairs of carriage plates, and indicating means on said mounting assembly for determining the position of the burner head within the furnace by the relative positions of th carriage to: thes-base; and :the burner; unit -to s hevca ra and ethe :upper and: lower :pairsof plates ofsaid: oarriageto ,each other:

16; A mounting,assembly -for furnaceburners comprising a horizcntally disposedz base for sup; porting the same bodiy; on theouter;wa11 i of furnace, a tubular body adapted to Carry` a aburner head'a-t one end thereofla carragepformed of a plurality ofpivotally related platesrarra-n din pairs above anditbelow a common pivotaaxs, a ,shaft journaled' in v saict; plates and-;pivotally connecting' said upper-and:lowerrpairs thereof,` means for: mounting; the,,upper; pair of; carra,g e

plates for :movement ;along the base, a-gear ;rachlongitudinany arrangedonasaid base; ae; gear rotatably carried. bythe:` upper patrof: carrage: plates .and adapted :to -move.sthe ;carriagee along.-

the base When turned. in;meshed;re1ation:- With" said gear rack; meansifor seen-ring ;the-:gear -from rotation, means .for mountingthemubular; body* for reciprocal movement within thelower'parof carriage p1ates,- a gearra-ck.longitudinallyarr rangedson the said tubular body; a; gear; rotatably.

carried by the'lower pair oficarriage platesrand adapted to reciprocally move* then Saidi tubular; body relative tothe ca'riageuwhena.turned'n meshed relation With the gear rack thereon, means for securing the second gear from rotation: and means for pivotallymovingtthe lower-"pair of .carriage plates relativertoithe upper par of said: plates` to produce angul'ar motionof' the -tubular body in a'vertical'plane:

17.' In apparatus* for bending glass sheets or plates including. a'furnaoe withinwhich the sheets are to be bent; amountingsassembiy fo' 'fur-hace burners'comprsing aabase seouredto and extend ing; outwardly froma-;wall 'of the frnace,` agear'` rack afxed' t'o' theupper -surface' of the base;- a carriage` form'edr'ofz a; plurality -of pvotally re-` lated plates arranged; .in pair-s above and below a commonpivotat'axs; a shaft connecting: the said upper and lower pairs 'of 'carriage=p1ates, the upper pair 'of *carriageplates beingvdisposedaong: opposedside walls of the base, rollers rotatabiy carried by the said'upper pair-of 'plates and arranged in'` rolling contact' with' the upper-'andlower surfaces' of the base to movably support the' carriage thereon; journals located* in said upper pair of'plates, a: sha-ft" mounted in the journals, means 'for' turning 'the `shaft; one of *the journals having an axially aligned. slot forme& therein, means forcompressing the' slot'in'sad journal to secure the shaft from rotation, a gear` k'eyed' to the-shaft'and meshing' with the gear rack on the base to move the carriage therealong upon turning of'said shaft; indicating means onsaid base to determne' the position of the carriage thereon, a' burner unit extending into said' furnace and carrying a' burner head' at the end' thereof, rollers'rotatably carried by thelower pair of carriage plates and arranged in rolling contact with the upper and lower surfaces of 'the burner unit to reciprocally supportsaid unit within the carriage; a gear rackaffi'xed to theiupper surface of the* burner unit journals mounted* in the l'ower'pair of -carriage plates, a shatmounted in the journals, means for turnng the'shaft, one` of the jcurnals having anraxiauyahgned*slot formed therein; meansrfor compressing the slot in-.said journal tosecure'the shaft-from rotationr; a gearkeyedto thevshaft and-meshing-with the gear 'ackon: the burner unit: to move said-` unit relative to the carriage upon .tu-rning ofusaidshat, indicating means ontthe .burner unit to. determine its. .position-; re1ative,. to( the, carriage; means for pivotal ly movin the low r pa-riof carria e plates, relative touthe upper r pair for ;moving the burner unit angularly in -a Vertical. plane, and ndicating means onsaid lower pair of carriage plates for determining the extentof sucht angular movemen-h.

18. A- mounting assembly for urnacenburners comprising a .horizontally. disposed :base .for supporting saidassembly on thewall of a furnaceadapted to heatglass sheets .and bend the same to aspecialacurvature, aburner unit extending into theifurnaceand carrying a burner head at the end thereof, acarriage supporting; the burner unit on said base and formed of ;pivotally related; platesarranged in: pairs .above and below acommcn pivota` axis,ashaft journaled in the adjoining ends of the-supper and lower. pars of carriageeplates, a spacer sleeve mounted on the shaftandhetween the innermost plates .of each of said pairs, means acting to clamp said pairs of plates ,against-said spacer sleeve to lock the same from movement, a gear sectorattached to onegof theupper pairof carriage plates, an internally threaded geaarac; mountedor reciprocal movement on an adjacent plate othe said lower pair and in vmeshing engagement with the gear' sector, a ,threaded shaft received in the gear rack, neans for preventing` endwse. mo-

ton on the threaded shat means for rotating.

said threaded shatto :produce endwise movement of thegear rack-andswinging movement of the lower pair otcarriage platesirelatve to thevup per pair, incicating means on the said lower pair of plates, a pointer carried on the upper pair. of plates; and registering with the indoatingmeans to determine` the angular position of the lower, pair ofplates to the upper pair, and indicating; means on said base and said burner: unit rto. exteriorly. determine the position of the` burner headinsdecf thefurnace.

19.= A ncuntirg assembly for furnace burners coniprising, a horzontally disposedbase for supporting said assembly on ,thenwall of. aifurnace adapted to .heat glass sheets and bend .the same to asspecal .curvature, a tubular body extendng toward the -furnace and adaptedto carry a burnehead at the` end thereof, a gear rack aflixed.

to v. the upper surface of the base, a carriage formed 'of 'pvotally related plates arranged above and below. a commonpivotalr axis, a shaftfor pivotally connectingt thesaidupper, and lower pairs oficarrage. plates, the upper pair of carriage. plates being disposed, along opposed sdes othe: base, rollers rotatably carried by said upper pair' of platesand arranged insrollingcontact Withthe upper and lower surfaces of the basetomovably sup-port thecarriagethereon, journals locatedinsaid uppenpainof plates, a shaft.mountedinthe journals; means for turna ing. thesecond shaft, one of the vjournalshavina an axially aligned slot formed therein, means for compressing the. slotin said journal tosecure the shaft from rotation, agear keyed to the shat and meshing.. Withthe gearack` on the base to move the carriage: therealong upon turning of the said, second shaft, indicating means on said base to determine the position of; the carriage thereon,. rollersrotatably care. riedby; the lower pai'.ofcarriage plates andarranged in roling. contact With the upper and lower surfaces of .the said tubular body to reciprocally support saidbody within thecarriage, agearrack afixedto the upper. surface of the tubular body, journals mounted, on the.. lower` pair( of carriage. piates, a. vsha ft monted ;ina the;

17 joumals, means for tuming the third shalt. one of the journals having an axially aligned slot formed therein, means for compressing the slot to secure the shaft from rotation, a gear keyed to the shaft and meshing with the gear raek on the tubular body to move the same relative to the carriage upon turning of said third shatt. indicating means on said tubular body to determine its position relative to the carriage; a spacer sleeve mounted on the first mentioned shaft between the innermost plates of the said upper and lower pairs of carriage plates, means acting to clamp said pairs of plates against the spacer sleeve to lock the same from movement, a gear sector attached to one plate of the said upper pair, an internally threaded gear rack mounted for reciprocal movement on an adjacent plate of the said lower pair and in meshing engagement with the gear sector, a threaded shaft received in the gear rack, means for preventing endwise movement of the threaded shaft. means for rotating said threaded shat to pro- 18 duce endwise movement of the gear rack and swinging movement of the lower pair 01' carriage plates relative to the upper pair, indicating means on the said lower pair of plates and a pointer on the said upper pair of plates registering with the indicating means whereby the burner head of said tubular body may be repeatedly positioned at a predetermined location above an area of a glass sheet to be heated and then bent to a special curvature.

JOSEPH E. JENDRISAK.

References Cited in the file of this patent UNITED STATES PATENTS Number Name Date 1,188,951 Lacerda June 27, 1916 2,125,176 Jones July 26, 1938 2,423,188 Herbst July 1, 1947 2,450,297 Pearse et al. Sept. 28, 1948 2,452,488 Paddock et al Oct. 26, 1948 2,460,826 Hooser Feb. 8, 1949 

